* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Chapter 10:The Mole
Atomic nucleus wikipedia , lookup
Relativistic quantum mechanics wikipedia , lookup
Weakly-interacting massive particles wikipedia , lookup
Compact Muon Solenoid wikipedia , lookup
Mathematical formulation of the Standard Model wikipedia , lookup
Minimal Supersymmetric Standard Model wikipedia , lookup
ATLAS experiment wikipedia , lookup
Theoretical and experimental justification for the Schrödinger equation wikipedia , lookup
Standard Model wikipedia , lookup
Chapter 10:The Mole 10-1 Measuring Matter •Counting Particles… •The SI Unit for counting is the mole. •The mole is a number of particles or ‘things’ equal to 6.02 x 1023 of those particles . •Just like a dozen is 12 a mole is 6.02 x 1023 . •This number is called Avogadro’s number. Converting with the mole • We will use dimensional analysis to convert with the mole. We always start the same… • known x unknown units = unknown answer 1 known units • Write the known and unknown for every problem, then plug them into the equation. • Try this… How many atoms are in 2.5 moles of sulfur? Solve • Unknown: # of atoms S • Known: 2.5 moles S • Plug in… and use 6.02x1023atoms/1mol S • known x unknown units = unknown answer 1 known units Answer:1.505 x 1024atoms…then round to 2 sd • 1.5 x 1024atoms of S Representative Particles • The representative particle of elements is the atom. • The representative particle of ionic compounds is the formula unit. • The representative particle of molecular compounds is the molecule. • When we count with the mole…this is what we count, in chemistry. The Mole and Mass • • • • • • • Let’s compare the mass of 1 atom of H:He:C 1amu:4amu:12amu What about 10 atoms of each… The reduced ratio would be1:4:12 What about 1,000,000 atoms of each…. The reduced ratio would be1:4:12 Is there a number of atoms where the numbers 1:4:12 would be equal to 1g:4g:12g? ….YES…that number is the mole Mass and the Mole • The number under each atom now stands for gram atomic mass. • If we have a compound, we add up the masses in the compound and we have gram molecular mass. • If it is an ionic compound it will be gram formula mass. • A general term is molar mass. Mass and the Mole • You can now use the molar mass as a second conversion factor: • 1 mol H2O/18.0 g H2O • How many grams are found in 2.0 moles of H2O? (Try it.)